A non-volatile memory cell has a single crystalline semiconductive material, such as single crystalline silicon, of a first conductivity type. A first and a second region each of a second conductivity type, different from the first conductivity type, spaced apart from one another is formed in the semiconductive material. A channel region, having a first portion, and a second portion, connects the first and second regions for the conduction of charges. A dielectric is on the channel region. A floating gate, which can be conductive or non-conductive, is on the dielectric, spaced apart from the first portion of the channel region. The first portion of the channel region is adjacent to the first region, with the first floating gate having generally a triangular shape. The floating gate is formed in a cavity. A gate electrode is capacitively coupled to the first floating gate, and is spaced apart from the second portion of the channel region. The second portion of the channel region is between the first portion and the second region. A bi-directional non-volatile memory cell has two floating gates each formed in a cavity. A method of making the non-volatile memory cell and the array are also disclosed.
Legal claims defining the scope of protection, as filed with the USPTO.
1. A non-volatile memory cell comprising: a substantially single crystalline semiconductive material of a first conductivity type; a first region of a second conductivity type, different from said first conductivity type in said material; a second region of said second conductivity type in said material, spaced apart from said first region; a channel region, having a first portion, and a second portion, connecting said first and second regions for the conduction of charges; a dielectric on said channel region; a first floating gate on said dielectric, spaced apart from said first portion of said channel region; said first portion of said channel region adjacent to said first region, said first floating gate having generally a triangular shape; and a gate electrode capacitively coupled to said first floating gate, and spaced apart from said second portion of said channel region, said second portion of said channel region between said first portion and said second region.
2. The cell of claim 1 wherein said substantially single crystalline semiconductive material is single crystalline silicon.
3. The cell of claim 2 wherein said first floating gate was formed in a cavity.
4. The cell of claim 3 , wherein said first floating gate is made of polysilicon.
5. The cell of claim 3 , wherein said first floating gate is made of silicon nitride.
6. The cell of claim 3 wherein said channel region having a third portion, with said second portion adjacent to said second region, and said third portion between said first portion and said second portion; and wherein said cell further comprising: a second floating gate on said dielectric, spaced apart from said second portion of said channel region; said second floating gate having generally a triangular shape.
7. The cell of claim 6 wherein said second floating gate was formed in a cavity.
8. The cell of claim 7 further comprising a first trench having a sidewall and a bottom wall, and wherein said first region is along said sidewall and bottom wall of said first trench and is capacitively coupled to said first floating gate.
9. The cell of claim 8 further comprising a second trench having a sidewall and a bottom wall, and wherein said second region is along said sidewall and bottom wall of said second trench and is capacitively coupled to said second floating gate.
10. The cell of claim 9 wherein said second floating gate is made of polysilicon.
11. The cell of claim 9 wherein said second floating gate is made of silicon nitride.
12. A non-volatile memory cell for the storage of a plurality of bits, comprising: a substantially single crystalline semiconductive material of a first conductivity type; a first trench having a sidewall and a bottom wall in said material: a first region of a second conductivity type, different from said first conductivity type in said material, wherein said first region is along said side wall and said bottom wall of said first trench; a second region of said second conductivity type in said material, spaced apart from said first region; a channel region, having a first portion, a second portion and a third portion, connecting said first and second regions for the conduction of charges; a dielectric on said channel region; a first floating gate of polysilicon on said dielectric, spaced apart from said first portion of said channel region; said first portion of said channel region adjacent to said first region, said first floating gate for the storage of at least one of said plurality of bits; wherein said first region is capacitively coupled to said first floating gate; a second floating gate of polysilicon on said dielectric, spaced apart from said second portion of said channel region; said second portion of said channel region adjacent to said second region, said second floating gate for the storage of at least another of said plurality of bits; and a gate electrode capacitively coupled to said first floating gate and said second floating gate, and spaced apart from said third portion of said channel region, said third portion of said channel region between said first portion and said second portion.
13. The cell of claim 12 wherein said substantially single crystalline semiconductive material is single crystalline silicon.
14. The cell of claim 13 wherein said first floating gate is substantially of a triangular shape.
15. The cell of claim 14 wherein said second floating gate is substantially of a triangular shape.
16. The cell of claim 12 wherein said gate electrode is substantially parallel to said channel region.
17. The cell of claim 12 further comprising a second trench having a sidewall and a bottom wall, and wherein said second region is along said sidewall and bottom wall of said second trench and is capacitively coupled to said second floating gate.
18. An array of non-volatile memory cells, arranged in a plurality of rows and columns, said array comprising: a substantially single crystalline semiconductive substrate material of a first conductivity type; a plurality of non-volatile memory cells arranged in a plurality of rows and columns in said semiconductive substrate material with each cell for storing a plurality of bits, and with each cell comprising: a first region of a second conductivity type, different from said first conductivity type in said material; a second region of said second conductivity type in said material, spaced apart from said first region; a channel region, having a first portion, a second portion and a third portion, connecting said first and second regions for the conduction of charges; a dielectric on said channel region; a first floating gate of polysilicon on said dielectric, spaced apart from said first portion of said channel region; said first portion of said channel region adjacent to said first region, said first floating gate for the storage of at least one of said plurality of bits; a second floating gate of polysilicon on said dielectric, spaced apart from said second portion of said channel region; said second portion of said channel region adjacent to said second region, said second floating gate for the storage of at least another of said plurality of bits; and a gate electrode capacitively coupled to said first floating gate and said second floating gate, and spaced apart from said third portion of said channel region, said third portion of said channel region between said first portion and said second portion, wherein said cells in the same row have said gate electrode in common; wherein said cells in the same column have said first region in common and said second region in common; and wherein said cells in adjacent columns have said first region in common.
19. The array of claim 18 wherein said substantially single crystalline semiconductive material is single crystalline silicon.
20. The array of claim 19 wherein said first floating gate is generally triangularly shaped.
21. The array of claim 20 wherein said second floating gate is generally triangularly shaped.
22. The array of claim 21 wherein said gate electrode is substantially parallel to said channel region.
23. The array of claim 22 further comprising a first trench having a sidewall and a bottom wall, and wherein said first region is along said sidewall and bottom wall of said first trench and is capacitively coupled to said first floating gate.
24. The array of claim 23 further comprising a second trench having a sidewall and a bottom wall, and wherein said second region is along said sidewall and bottom wall of said second trench and is capacitively coupled to said second floating gate.
Cooperative Patent Classification codes for this invention. Click any code to explore related patents in that topic.
April 7, 2003
October 19, 2004
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